Radiotekhnika
Publishing house Radiotekhnika

"Publishing house Radiotekhnika":
scientific and technical literature.
Books and journals of publishing houses: IPRZHR, RS-PRESS, SCIENCE-PRESS


Тел.: +7 (495) 625-9241

 

General view of the modular concept of model of drawing of the microwire

DOI 10.18127/j19998465-201807-02

Keywords:

A.V. Volkov – Ph.D.(Eng.), Associate Professor, Kaluga branch of the Bauman MSTU
E-mail: volkovkfmgtu@yandex.ru
I.K. Ustinov – Ph.D.(Eng.), Associate Professor, Kaluga branch of the Bauman MSTU
E-mail: M4KF-Kafedra@rambler.ru
A.P. Korzhavyi – Dr.Sc.(Eng.), Professor, Kaluga branch of the Bauman MSTU
E-mail: fn2kf@list.ru


It is earlier designed and marketed in ambience Mathcad mathematical model of the process of the frequentative lug with slide micro wire from aluminum-silicon alloy, intended for ultrasonic montage underbody electric joining the microcircuits. Here solved the problem of the development of the general type of the algorithm to models in mathematical notation, suitable to realization specified models in universal programed ambience.
As a result of mathematical modeling to technologies of the reception of the material is designed general type of the algorithm to models of the frequentative lug with slide микропроволоки, consisting of four programed modules, which allows to conduct modeling of the process in different programed ambience, first of all – a type «freeware», for instance, in free ambience SciLab with MEPL-like by interface.
It is shown that offered model of the process of the frequentative lug with slide micro wire from aluminum-silicon alloy allows to conduct the identical calculation relative pressing, resistances to deformation, voltages of the lug, district velocities of the tractive pucks and wires in ensuring the selection as theoretically taken, so and real given transition diamond portage. The model allows also providing in tearing process of the lug and creating the central to automated montage underbody join at micro wire.

References:
  1. Perlin I.L., Ermanok M.Z. Teoriya volocheniya. M.: Mashinostroenie. 1971. Izd. 2-e. 448 s.
  2. Xerxager M., Partoll’ X. Mathcad 2000: polnoe rukovodstvo, per. s nem. Kiev: Izd. gruppa BHV. 2000. 416 c.
  3. Bondarenko G.G., Volkov A.V. Razrabotka i realizacziya modeli proczessa mnogokratnogo volocheniya mikroprovoloki // Naukoemkie texnologii. 2002. T. 3. № 5. S. 19−23.
  4. Bondarenko G.G., Volkov A.V. Sovershenstvovanie modeli volocheniya mikroprovoloki. Chast’ I // Naukoemkie texnologii. 2004. T. 1. № 1. S. 14−18.
  5. Bondarenko G.G., Volkov A.V. Sovershenstvovanie modeli volocheniya mikroprovoloki. Chast’ II // Naukoemkie texnologii. 2005. № 3−4. S. 34−38.
  6. Korn G., Korn T. Spravochnik po matematike dlya nauchny’x rabotnikov i inzhenerov. Izd. 4-e. Per. s angl. / Pod red. I.G. Agranovicha. M: Nauka. 1978. 832 s.
  7. Miklyaev P.G., Dudenkov V.M. Soprotivlenie deformaczii i plastichnost’ alyuminievy’x splavov. Spravochnik. M: Metallurgiya. 1979. 182 s.
  8. Kroxa V.A. Uprochnenie metallov pri xolodnoj plasticheskoj deformaczii. Spravochnik. M: Mashinostroenie. 1980. 157 s.
  9. Belyaev O.A., Klubovich V.V., Mal’czev G.P., Pivovarchik A.A. Metodika rascheta temperaturny’x polej i napryazhenij pri mnogokratnom volochenii provoloki // Vesczi AN BSSR. Ser. fiz.-te’xn. Navuk. 1982. № 3. S. 63−70.
  10. Volkov A.V., Ustinov I.K,, Korzhavy’j A.P., Strel’chenko S.S. Modelirovanie fizicheskogo proczessa polucheniya mikroprovoloki dlya izdelij e’lektronnoj texniki // E’lektromagnitny’e volny’ i e’lektronny’e sistemy’. 2016. T. 21. № 3. S. 13−18.

© Издательство «РАДИОТЕХНИКА», 2004-2017            Тел.: (495) 625-9241                   Designed by [SWAP]Studio